Production of the X(3872) state via the B0 K 0 X(3872) decay

Abstract

In this work the production of the state X(3872) is estimated via the reaction B0 K 0 X(3872) through triangle mechanisms described by the sequence B0 Ds(*)+ ( K 0 D(*)+ ) \ D(*)- K 0 \ ( D(*)+ D(*)- ) K 0 X(3872) . The molecular configuration (D D* - c.c. ) of the X(3872) is considered. By means of the effective Lagrangian approach, the branching ratio B(B0 K 0 X(3872)) is calculated as a function of the strength of the coupling of the charged components (D+ D*- - c.c. ) to the X(3872) and compared with experimental data. Besides, employing the decay B0 K 0 (2S) as a normalization channel, the ratio of branching fractions R = B( B0 K 0 X(3872) )B( B0 K 0 (2S) )× B( X(3872) J/ π+ π- )B( (2S) J/ π+ π- ) is also estimated. The findings provide another concrete example for the vital role of charged components in achieving a quantitatively correct description of the X(3872).